Instruction Manual
Table Of Contents
- Declaration of Conformity
- Copyrights
- Contact Us
- Document History
- Contents
- List of Figures
- List of Tables
- List of Processes
- List of Procedures
- About GTR 8000 Base Radio
- GTR 8000 Base Radio Description
- 1.1 Introduction
- 1.2 GTR 8000 Base Radio Components
- 1.3 Supported System Configurations
- 1.4 Overview For a GTR 8000 Base Radio in a Trunked IP Simulcast Subsystem
- 1.5 Overview For a GTR 8000 Base Radio in an ASTRO 25 Repeater Site
- 1.6 Overview For a GTR 8000 Base Radio in a Trunked Single-Site Repeater Configuration
- 1.7 Overview For a GTR 8000 Base Radio in a High Performance Data (HPD) Subsystem
- 1.8 Overview for a GTR 8000 Base Radio in Conventional Architectures
- 1.9 Overview of a GTR 8000 Base Radio in a Trunked 3600 System
- 1.10 Power Efficiency Package
- 1.11 License Auditing
- 1.12 GTR 8000 Base Radio Specifications
- 1.12.1 GTR 8000 Base Radio Specifications for Integrated Voice and Data (700/800 MHz)
- 1.12.2 GTR 8000 Base Radio Specifications for Integrated Voice and Data UHF R1 (380–435 MHz)
- 1.12.3 GTR 8000 Base Radio Specifications for Integrated Voice and Data UHF R2 (435–524 MHz)
- 1.12.4 GTR 8000 Base Radio Specifications for Integrated Voice and Data VHF (136–174 MHz)
- 1.12.5 GTR 8000 Base Radio Specifications for High Performance Data (700/800 MHz)
- 1.12.6 Specifications for GTR 8000 Base Radio Cabinet
- GTR 8000 Base Radio Theory of Operation
- 2.1 Functions of the GTR 8000 Base Radio Modules
- 2.2 Backplanes and Card Cages
- 2.3 RFDS Modules
- 2.3.1 RFDS Preselector (700/800 MHz)
- 2.3.2 RFDS Preselector (UHF)
- 2.3.3 RFDS Preselector (VHF)
- 2.3.4 RFDS - Transmit Filter (700/800 MHz)
- 2.3.5 RFDS - Duplexer (700/800 MHz)
- 2.3.6 RFDS - Duplexer (UHF)
- 2.3.7 RFDS - Duplexer (VHF)
- 2.3.8 RFDS - External Dual Circulator/Isolator Tray (700/800 MHz)
- 2.3.9 RFDS - External Dual Circulator/Isolator Tray (UHF)
- 2.3.10 RFDS - External Dual Circulator/Isolator Tray (VHF)
- 2.3.11 Antenna Relay Module
- GTR 8000 Base Radio Installation
- 3.1 Pre-Installation Tasks
- 3.2 General Safety Precautions
- 3.3 General Installation Standards and Guidelines
- 3.3.1 General Site Preparation Overview
- 3.3.2 General Equipment Inspection and Inventory Recommendations
- 3.3.3 General Placement and Spacing Recommendations
- 3.3.4 General Cabinet Bracing Recommendations
- 3.3.5 Mounting Cabinets or Racks to a Floor
- 3.3.6 General Bonding and Grounding Requirements
- 3.3.7 General Cabling Requirements
- 3.3.8 General Power Guidelines and Requirements
- 3.3.9 General Electrostatic Discharge Recommendations
- 3.3.10 FCC Requirements
- 3.3.11 Networking Tools
- 3.3.12 General Installation/Troubleshooting Tools
- 3.3.13 Technical Support for Installation
- 3.4 GTR 8000 Base Radio Hardware Installation
- 3.4.1 Placement and Spacing
- 3.4.2 Cabinet Version of the GTR 8000 Base Radio
- 3.4.3 Rack Mounting The GTR 8000 Base Radio
- 3.4.4 Connecting Power
- 3.4.5 GTR 8000 Base Radio Grounding
- 3.4.6 GTR 8000 Base Radio Rear Connections (Integrated Voice and Data)
- 3.4.7 GTR 8000 Base Radio Rear Connections (HPD)
- 3.4.8 GTR 8000 Base Radio Front Connections
- 3.5 Installation/Troubleshooting Tools
- 3.6 Installing Device Software Prerequisites
- 3.7 Software Download Manager
- 3.8 Installing Devices in the UNC
- GTR 8000 Base Radio Configuration
- 4.1 Configuration Software
- 4.2 Discovering a Device in the UNC
- 4.3 Security/Authentication Services
- 4.4 Device Configuration in CSS
- 4.4.1 CSS Initial Device Configuration
- 4.4.2 Connecting Through a Serial Port Link
- 4.4.3 Serial Connection Configurations
- 4.4.4 Connecting Through an Ethernet Port Link
- 4.4.5 Ethernet Connection Configurations
- 4.4.5.1 Setting the BR/CM Pairing Number in CSS
- 4.4.5.2 Setting the Date and Time in CSS
- 4.4.5.3 Changing SNMPv3 Configuration and User Credentials in CSS
- 4.4.5.4 Customizing the Login Banner in CSS
- 4.4.5.5 Setting the SWDL Transfer Mode in CSS
- 4.4.5.6 Manager IP Address Settings in CSS
- 4.4.5.7 NTP Server Settings in CSS
- 4.4.5.8 Setting the Local Password Configuration in CSS
- 4.4.6 Setting CSS Configuration Parameters for the GTR 8000 Base Radio (Trunked Simulcast)
- 4.4.7 Setting CSS Configuration Parameters for the GTR 8000 Base Radio (Trunked Repeater)
- 4.4.8 Setting CSS Configuration Parameters for the GTR 8000 Base Radio (HPD)
- 4.4.9 Setting CSS Configuration Parameters for the GTR 8000 Base Radio (Conventional)
- 4.4.10 Configuring Tx Power Values and Battery Type
- 4.4.11 Setting RMC System Gain
- 4.5 Configuring Centralized Authentication on Devices in VoyenceControl
- GTR 8000 Base Radio Optimization
- 5.1 Aligning the Internal Frequency Reference Oscillator
- 5.2 Battery Equalization
- 5.3 ASTRO Simulcast Alignment (Trunked Operation)
- 5.4 ASTRO/Analog Simulcast Alignment (Conventional Operation)
- 5.5 Carrier Squelch Alignment
- 5.6 Tx Wireline Alignment
- 5.7 Rx Wireline Alignment
- 5.8 Transmitter Testing
- 5.9 Tuning a Preselector
- 5.10 Tuning a Duplexer
- 5.10.1 Field Tuning Overview
- 5.10.2 Required Test Equipment
- 5.10.3 Tuning a 700/800 MHz Duplexer
- 5.10.4 Tuning a VHF Duplexer
- 5.10.4.1 VHF Duplexer Tuning Setup
- 5.10.4.2 VHF Duplexer Low Pass Resonators Tuning Set Up
- 5.10.4.3 VHF Duplexer High Pass Resonators Tuning Set Up
- 5.10.4.4 VHF Duplexer High Notch Loop Assemblies Tuning Set Up
- 5.10.4.5 VHF Duplexer Low Notch Loop Assemblies Tuning Set Up
- 5.10.4.6 VHF Duplexer Insertion Loss Verification Set Up
- 5.10.4.7 VHF Duplexer Isolation Verification Set Up
- 5.10.4.8 Checking VHF Duplexer After Tuning
- 5.10.5 Tuning a UHF Duplexer
- 5.10.5.1 UHF Duplexer Tuning Set Up
- 5.10.5.2 UHF Duplexer Low Pass Resonators Tuning Set Up
- 5.10.5.3 UHF Duplexer High Pass Resonators Tuning Set Up
- 5.10.5.4 UHF Duplexer High Notch Loop Assemblies Tuning Set Up
- 5.10.5.5 UHF Duplexer Low Notch Loop Assemblies Tuning Set Up
- 5.10.5.6 UHF Duplexer Insertion Loss Verification Set Up
- 5.10.5.7 UHF Duplexer Isolation Verification Set Up
- 5.10.5.8 Checking UHF Duplexer After Tuning
- 5.11 Testing the GTR 8000 Base Radio Performance with a Service Monitor for Integrated Voice and Data
- 5.11.1 Deviation Standards (Digital Operation)
- 5.11.2 Monitoring the Power Supply Module
- 5.11.3 Verifying Receiver Performance for FDMA Operation
- 5.11.4 Verifying Receiver Performance in TTA Operation
- 5.11.5 Verify Receiver Performance for APCO TDMA Operation
- 5.11.6 Verifying Receiver Performance (Analog Operation)
- 5.11.7 Checking Receiver Sensitivity (Self-Test Method) (IV and D)
- 5.11.8 Monitoring the Transmitter Metering Points
- 5.11.9 Verifying Transmitter Performance (Digital Operation)
- 5.11.10 Verifying Transmitter Performance (Analog Operation)
- 5.12 Testing the GTR 8000 Base Radio Performance with a Service Monitor for HPD
- 5.12.1 Setting Up the HPD Service Monitor for Testing the Base Radio
- 5.12.2 Performing In-band Power Meter User Calibration
- 5.12.3 Measuring HPD Base Radio Tx Power, Frequency Accuracy, and Tx EVM
- 5.12.4 Measuring HPD Base Radio Rx Sensitivity and Rx BER
- 5.12.5 Checking Receiver Sensitivity (Self-test Method) (HPD)
- GTR 8000 Base Radio Maintenance
- GTR 8000 Base Radio Operation
- GTR 8000 Base Radio Troubleshooting
- 8.1 GTR 8000 Base Radio General Troubleshooting
- 8.2 GTR 8000 Base Radio Troubleshooting Tools
- 8.3 Site Controller Failure Impact on GTR 8000 Base Radio for Trunked Operation
- 8.4 Conventional Site Controller Failure - Impact on GTR 8000 Base Radio for Conventional Operation
- 8.5 Motorola Solutions Support Center
- GTR 8000 Base Radio FRU Procedures
- 9.1 Field Replaceable Units (FRUs) and Parts
- 9.2 Transceiver Hardware Generations
- 9.3 Power Amplifier Hardware Generations
- 9.4 Replacing a Transceiver Module
- 9.5 Replacing the Fan Assembly
- 9.6 Replacing a Power Supply
- 9.7 Replacing a Power Supply Fan
- 9.8 Replacing a Power Amplifier
- 9.9 Replacing a GTR 8000 Base Radio Backplane
- 9.10 Replacing a Preselector Filter
- 9.11 Replacing Transmit Filters (700/800 MHz)
- 9.12 Replacing the Dual Circulator/Isolator Modules
- 9.13 Replacing a Duplexer (700/800 MHz)
- 9.14 Replacing a Duplexer (UHF)
- 9.15 Replacing a Duplexer (VHF)
- 9.16 Replacing an Antenna Relay
- GTR 8000 Base Radio Reference
- 10.1 GTR 8000 Base Radio LEDs
- 10.2 RFDS Equipment Specifications
- 10.2.1 Transmit Filter Specifications (700/800 MHz)
- 10.2.2 Preselector Filter Specifications (700/800 MHz)
- 10.2.3 Preselector Filter Specifications (UHF)
- 10.2.4 Preselector Filter Specifications (VHF)
- 10.2.5 Duplexer Specifications (700/800 MHz)
- 10.2.6 Duplexer Specifications (UHF)
- 10.2.7 Duplexer Specifications (VHF)
- 10.2.8 External Dual Circulator Specifications (700/800 MHz)
- 10.2.9 External Dual Circulator Specifications (UHF)
- 10.2.10 External Dual Circulator Specifications (VHF)
- 10.2.11 Antenna Relay Specifications
- GTR 8000 Base Radio Disaster Recovery
- Appendix A: Conventional GTR 8000 Base Radio Option Kits
- A.1 T2-2R, T3-3R, and T4-4R Receiver Mute Option Kits
- A.1.1 T2-2R Receiver Mute Option Kit
- A.1.2 T3-3R Receiver Mute Option Kit
- A.1.3 T4-4R Receiver Mute Option Kit
- A.1.4 Expected Site Performance for T2-2R, T3-3R, and T4-4R Receiver Mute
- A.1.5 Tn-nR Receiver Mute Option Kit
- A.1.6 Installing the T2-2R, T3-3R, and T4-4R Receiver Mute Option Kits
- A.1.7 Configuring the T2-2R, T3-3R, and T4-4R Receiver Mute Option Kits
- A.2 T1-2R with Talk-Around Option Kit
- A.3 T2-2R with Duplexer and Triple Relay Option Kit
- A.1 T2-2R, T3-3R, and T4-4R Receiver Mute Option Kits
Configuration/Service Software (CSS) and Unified Network Configurator (UNC), or through alarms to
Unified Event Manager (UEM).
The maximum charging current available from the integrated charger is 3 A (48 VDC nominal system).
A battery with capacity no larger than 60 Ah should be connected to a single charger to ensure that the
charger maintains an adequate state-of-charge on the backup battery, and the backup battery is
restored to full capacity within a reasonable amount of time following operation on battery backup
power.
In addition to standard sealed lead-acid batteries (valve-regulated lead acid or gel cells), the power
supply supports charging of vented lead-acid and NiCd batteries.
2.1.4.3
Battery Temperature Sensor Cable
The integrated charger in the power supply performs temperature compensated battery charging when
a temperature sensor is connected. If the sensor is disconnected, the charger continues to operate as
an uncompensated charger with the charging profile following the minimum charger voltage specified
by the battery manufacturer.
Included is a 40 ft battery temperature sensor cable, which attaches to a battery pack, supplied by your
organization, and to the backplane of the device. This three-wire cable carries a voltage signal to the
power supply from the sensor element, which must be mounted close to the storage battery. Voltage is
proportional to the battery temperature, and the diagnostic circuitry in the power supply module. This
cable is extended to a total length of 190 ft using 50 ft extensions. See Battery Temperature Sensor
Mounting
on page 104.
IMPORTANT: Continuous operation with a disconnected sensor is not recommended.
2.1.4.4
ON/OFF Switch for Power Supply and Battery Charger
This table identifies the switch states for the power supply and battery charger.
Table 30: ON/OFF Switch - States for Power Supply and Battery Charger
Switch Position Power Supply State Battery Charger State
ON (1)
• Power Factor Correction
(PFC) section is active (AC
input only)
•
Main DC converter runs to
create the MAIN and AUX
DC outputs
DLN6781A can be started if
desired (AC input only)
DLN6805A Disabled
OFF (0)
• Main DC converter is turned
OFF and the MAIN and AUX
DC outputs become 0.0
VDC
Disabled (AC input only)
MN003286A01-H
Chapter
2: GTR 8000 Base Radio Theory of Operation
69